The path to access first MObject (<O>) of the first ''sub'' attribute is ''AccessTreeExpanded[0]/account[0]/sub[0]/''. Here indexes in each step mean the number of MObject inside the attribute. That is, to get second ''sub'' attribute you should use the path ''AccessTreeExpanded[0]/account[0]/sub[1]/''.

+

The path to access first MObject (<O>) of the ''sub'' attribute is "''AccessTreeExpanded[0]/account[0]/sub[0]/''". Index in each step means the number of MObject inside the attribute. That is, to access second MObject of the ''sub'' attribute the path will be "''AccessTreeExpanded[0]/account[0]/sub[1]/''".

There are some cases when index of last step has a different meaning:

There are some cases when index of last step has a different meaning:

−

- in the ''getLiteral(Id, Path)'' method the index of last step means the number of literal inside the attribute. That is, path for getting literal value from second ''sid'' attribute will be ''AccessTreeExpanded[0]/account[0]/sub[1]/sid[0]'' and path for getting the second literal of first ''sid'' attribute will be:'' AccessTreeExpanded[0]/account[0]/sub[0]/sid[1]''.

+

- in the ''getLiteral(Id, Path)'' method the index of last step means the number of literal inside the attribute. That is, path for accessing literal from ''sid'' attribute of second ''sub'' MObject (literal with value "Value3") will be "''AccessTreeExpanded[0]/account[0]/sub[1]/sid[0]''" and path for accessing second literal of ''sid'' attribute of first ''sub'' MObject (literal with value "Value2") will be: "'' AccessTreeExpanded[0]/account[0]/sub[0]/sid[1]''".

−

Path is used that way in ''getLiteral(Id id, Path path)''

+

- in the ''getLiterals(Id, Path)'' method index of last step is irrelevant, that means this method will return all literals of the attribute found at the given path;

- in the ''getLiterals(Id, Path)'' method index of last step is irrelevant, that means this method will return all literals of the attribute found at the given path;

Line 95:

Line 94:

- in the ''setLiteral(Id, Path, Value)'' and ''addLiteral(Id, Path, Value)'' methods index of last step is irrelevant, that means that literal will be set or added to the attribute found on specified path

- in the ''setLiteral(Id, Path, Value)'' and ''addLiteral(Id, Path, Value)'' methods index of last step is irrelevant, that means that literal will be set or added to the attribute found on specified path

−

- in the methods that modify annotations, null, '', or empty path should be used to access root annotations of the record

+

- in the methods that modify annotations to access root annotations of the record path should be null, "" (empty string), or empty Path

Revision as of 06:25, 11 February 2009

Contents

What is Blackboard

Purpose of the Blackboard Service is management of SMILA record data during processing in SMILA component (Connectivity, Workflow Processor). Complete record data is stored only on a Blackboard which is not pushed through the workflow engine itself. Blackboard service hides handling of record persistence from the services.
Clients should generally manipulate records using Blackboard API methods in most cases so records will be completely under control of the Blackboard.

Usage of Blackboard Service

Record lifecycle on the Blackboard

Record can be put onto Blackboard with one of the following operations:

create(Id);

Creates a new record with a given Id. No data is loaded from persistence. If record with this Id already exists in the storages it will be overwritten when the created record will be committed. E.g. used by Connectivity to initialize the record from incoming data.

load(Id);

Loads record data for the given Id from persistence. Used by a client to indicate that it wants to process this record.

split(Id, String);

Creates a fragment of a given record, i.e. the record content is copied to a new Id derived from the given by adding a frament name (see Id Concept for details).

setRecord(Record);

Puts record on the Blackboard, saves record attachments to BinStorage and replaces actual record attachments values with null.

synchronize(Record);

Assumes that record with the same Id as of given record already exists on Blackboard or in storage. Loads record from the storage if needed and updates it's properties with properties of the given record.

Record is removed from the blackboard with one of these operations:

commit(Id);

Saves record and attachments to storages and removes record from the Blackboard.

invalidate(Id);

Record is removed from the Blackboard. If the record was created new (not overwritten) on the Blackboard it will be removed completely.

Attachments management

There are following methods for working with Record attachments in the Blackboard:

setAttachment(id, name, byte[]);

setAttachmentFromStream(id, name, InputStream);

byte[] getAttachment(id, name);

InputStream getAttachmentAsStream(id, name);

boolean hasAttachment(id, name);

Attachments are not stored anywhere in the Blackboard, they are saved to BinStorage directly and the actual attachment value in the corresponding Record is replaced with Template:Null. It is highly recommended to use only Stream methods to manage attachments because loading the whole attachments in memory will cause great memory consumption and can be cause for application crash.

Usage of Blackboard Notes

Notes is additional temporary data created by pipelets to be used in later pipelets in the same workflow, but not to be persisted in the storages. Notes can be either global or record specific (associated with a record Id). Record specific notes are copied on record splits and removed when the associated record is removed from the Blackboard. Each Note has a String name and Serialaizable value.
There are following methods for working with Notes:

boolean hasGlobalNote(name);

Serializable getGlobalNote(name);

setGlobalNote(name, value);

boolean hasRecordNote(id, name);

getRecordNote(id, name);

setRecordNote(id, name, value);

Usage of Path with Blackboard methods

Some methods of Blackboard accept Path as an argument, for example getAttributeNames(Id, Path). Path represents the attribute path in the Record. String format of Path looks like attributeName1[index1]/attributeName2[index2]/.... The specification of index is optional and defaults to 0. Index can refer to a literal or a sub-object that depends on methods getting the argument.

The path to access first MObject (<O>) of the sub attribute is "AccessTreeExpanded[0]/account[0]/sub[0]/". Index in each step means the number of MObject inside the attribute. That is, to access second MObject of the sub attribute the path will be "AccessTreeExpanded[0]/account[0]/sub[1]/".

There are some cases when index of last step has a different meaning:

- in the getLiteral(Id, Path) method the index of last step means the number of literal inside the attribute. That is, path for accessing literal from sid attribute of second sub MObject (literal with value "Value3") will be "AccessTreeExpanded[0]/account[0]/sub[1]/sid[0]" and path for accessing second literal of sid attribute of first sub MObject (literal with value "Value2") will be: " AccessTreeExpanded[0]/account[0]/sub[0]/sid[1]".

- in the getLiterals(Id, Path) method index of last step is irrelevant, that means this method will return all literals of the attribute found at the given path;

- in the setLiteral(Id, Path, Value) and addLiteral(Id, Path, Value) methods index of last step is irrelevant, that means that literal will be set or added to the attribute found on specified path

- in the methods that modify annotations to access root annotations of the record path should be null, "" (empty string), or empty Path